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1
Computer Assisted Induction
Aluminum Brazing
R. C. Goldstein, V. S. Nemkov, R. T. Ruffini
Centre for Induction Technology, Inc.
www.induction.org
2
Overview
• Automotive Heat Exchangers
• Pipe to Tube Brazing
• Computer Simulation of Induction Brazing
of Pipe to Tube Joints
• Optimization of Induction Coil
• Conclusions
3
Automotive Heat Exchangers
• Used for thermal
management in many
areas of the car
– Oil Coolers
– Powertrain
– Air Conditioning
– Dehumidifiers
– etc.
4
Heat Exchanger Manufacturing
• Assembling of heat exchanger bodies
• Brazing of body in a controlled atmosphere furnace
• Attachment of various components for connection to different cars
– Nylon tanks
– Aluminum pipes with connection blocks (most common)
5
Pipe to Tube Brazing
• Clamshell Inductors
– Problems with electrical contacts
– Complicated mechanical design
• “Horseshoe-Hairpin” Inductors
– Non-uniform heating in circumference
– Complicated magnetic field distribution
6
Pipe to Tube Induction Brazing Installation
using “Horseshoe-Hairpin” Coil
Connection Block
Pipe
Tube
Header
Body
Joint
Copper Coil
Fluxtrol A Magnetic
Flux Controller
7
Computer Simulation of Pipe to
Tube Brazing
• Not possible to simulate all processes due to
process complexity
• 2-D approach can not be used for
Horseshoe-Hairpin inductors
• 3-D electromagnetic simulation used to
study heat sources (most controllable factor)
8
1/4 of a Heat Exchanger Brazing
Coil
Fluxtrol A Magnetic
Flux Controller
Copper Coil
Heat Exchanger
Header
Tube
Pipe
9
Main Variables in this System
• Coil and Concentrator Dimensions
• Coil Position
• Contact in the Brazing Joint
• Coil Crossover
10
Different Crossovers
+ + . +
. . . +
11
Existing Induction Coil with
Diagonal Crossover
No Contact Good Contact
12
Existing Induction Coil with
Horizontal Crossover
No Contact Good Contact
13
Current Density Distribution for
Optimized Induction Coil
14
New Induction Coil
15
Conclusions
• Induction aluminum brazing of heat exchanger joints can be a very complicated process
• 3-D computer electromagnetic simulation provided good information regarding the heating process
• Optimized induction coil and process was more robust and produced higher quality joints
• Further study should be made using 3-D coupled electromagnetic plus thermal simulation
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